Molded surface fastener

ABSTRACT

A vehicle cover assembly comprising; a flexible cover; one or more side rails; and a fastener assembly that is secured to a vehicle bed comprising; a cover fastener that is on one or more edge regions of the flexible cover; and a side rail fastener with one or more rows of fasteners comprising; a plurality of dual hooks on the base that releasably connect with the cover fastener of the flexible cover; and a plurality of spacers between the plurality of dual hooks.

FIELD

The present teachings relate to hook and loop fasteners, andspecifically, the hook and loop fasteners relate to a fastening meansfor vehicle bed covers.

BACKGROUND

Flexible vehicle bed covers generally are rolled across the vehicle bedand engaged by hoop and loop fasteners for quick and efficient coveringof the contents of the vehicle bed. Many flexible covers that use hookand loop fasteners tend to engage before the user has had a chance toevenly distribute the cover over the vehicle bed. When the flexiblecover is unevenly distributed on the vehicle bed, it is difficult toprotect the contents of the vehicle from inclement weather and theft,and untightened portions of the cover may collect fluid, which mayeventually ingress into the vehicle bed. Furthermore, every readjustmentof the flexible cover causes the hook and loop fasteners to degradefaster, which then requires replacement.

Examples of some hook and loop fasteners can be found in U.S. Pat. Nos.8,523,266; 8,167,353; 7,815,239; and 6,544,245 and YouTube videosTruXedo Titanium Hard Rolling Tonneau Features and Benefits, publishedon Jul. 17, 2015 and TruXedo TruXport Roll-Up Truck Bed Cover Featuresand Benefits, published on Jun. 6, 2017 all of which are incorporated byreference herein for all purposes. What is needed is a flexible coverthat will not pre-engage when the user rolls the flexible cover over thevehicle bed. What is needed is a flexible cover that will rest on sidesof the vehicle bed before the user is ready to engage the flexiblecover. What is needed is a flexible cover that requires an extra step oruser engagement to engage the flexible cover.

SUMMARY

The present teachings meet one or more present needs by providing: avehicle cover assembly comprising; a flexible cover; one or more siderails; and a fastener assembly that is secured to a vehicle bedcomprising; a cover fastener that is on one or more edge regions of theflexible cover; and a side rail fastener with one or more rows offasteners comprising; a plurality of dual hooks on the base thatreleasably connect with the cover fastener of the flexible cover; and aplurality of spacers between the plurality of dual hooks.

A vehicle cover assembly comprising; a flexible cover; one or more siderails; and a fastener assembly that is secured to a vehicle bedcomprising; a cover fastener that is on one or more edge regions of theflexible cover; and a side rail fastener with one or more rows offasteners comprising; a plurality of dual hooks each including a topedge, the plurality of dual hooks being located on base that releasablyconnect with the cover fastener of the flexible cover; and a pluralityof spacers having an upper surface , the plurality of spacers beinglocated between the plurality of dual hooks along a length of thefastener assembly; wherein the upper surface of the plurality of spacersis elevated above the top edge of the plurality of dual hooks so thatwhen the flexible cover extends over the fastener assembly, the flexiblecover contacts the upper surface of the plurality of spacers andsubstantially prevents pre-engagement of the plurality of dual hooks andthe cover fastener.

The present teachings provide a hook and loop fastener that preventspre-engagement of the flexible cover as the flexible cover is rolledonto the vehicle bed. The present teachings provide a hook and loopfastener that allows the flexible cover to rest on top of the vehiclebed and protect the contents of the vehicle bed from water damage byproviding a seal around the vehicle bed. The present teachings provide ahook and loop fastener that supports the flexible cover such that aforce needs to be applied to engage the flexible cover.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view of a vehicle cover assembly.

FIG. 2A is a perspective view of a side rail.

FIG. 2B is an end view of a side rail.

FIG. 3A is a perspective view of a side rail fastener.

FIG. 3B is a close-up perspective view of a side rail fastener in boxIIIA.

FIG. 4A is a side view of a side rail fastener.

FIG. 4B is a close-up side view of side rail fastener in box IVA.

FIG. 4C is a side view of a fastener assembly before engagement of thestrip of loop fasteners.

FIG. 5 is a top view of a row of fasteners.

FIG. 6 is an exploded view of a row of fasteners.

FIG. 7 is an end view of a side rail fastener.

DETAILED DESCRIPTION OF DRAWINGS

The vehicle cover assembly may function to protect the contents of thevehicle bed from inclement weather, theft, damage, fluid, dirt, or acombination thereof. The vehicle cover assembly may be located at therear of the vehicle. The vehicle cover assembly may be used for a gator,dune buggy, golf cart, truck, car, off-road vehicle, or any vehicle thatmay have a vehicle bed. The vehicle cover assembly may cover an entirevehicle bed with a flexible cover.

The vehicle bed may function to store items. The vehicle bed may includea cab wall, vertical walls, a tailgate, or a combination thereof. Thevehicle bed may include one or more vertical walls, two or more verticalwalls, three or more vertical walls, four or more vertical walls, or acombination thereof. The vertical walls may be perpendicular the cabwall, the tailgate, or both. The two or more vertical walls may beparallel to each other. The vehicle bed may have a smooth surface. Thevehicle bed may have a rough surface. The vehicle bed may contact theside rails. The side rails and the vertical walls may form a connection.The side rails may rest on top of the vertical walls. The side rail andthe vertical wall may connect on an inner portion of the vertical wallso that the side rail is substantially inside of the vehicle bed (e.g.inside of the vehicle bed but not completely above the vertical walls).The side rails may extend away from the bed. The vertical walls, cabwall, and tailgate may create a periphery around the bed. The side railsmay extend upwards from the bed so that the bed has a volume that mayreceive items within the bed. The vehicle bed may extend from the cab ofthe vehicle to a rear region of the vehicle. The lowest portion of thevehicle bed may be the vehicle floor (e.g., bed floor).

The vehicle floor (e.g., bed floor) may function as the bottom surfaceof the vehicle bed. The vehicle floor may be rigid. The vehicle floormay be smooth. The vehicle floor may have a plurality of ridges, ribs,studs, hooks, or a combination thereof. The vehicle floor may contactvertical walls, a cab wall, a tailgate, or a combination thereof thateach extends vertically so that a container is formed. The vehicle floormay have a fluid seal when in contact with the vertical walls, cab wall,tailgate, or a combination thereof. The vehicle floor and the flexiblecover may be parallel relative to a horizontal plane. The vehicle floormay be a distance below the flexible cover. The distance may be 65 cm orless, 60 cm or less, or 55 cm or less. The distance may be 40 cm ormore, 45 cm or more, or 50 cm or more. The vehicle floor may contact oneor more vertical walls.

The vertical walls may function to support the side rails, flexiblecover, or both over the vehicle bed. The vertical walls, cab wall,tailgate, or a combination thereof may be form a container or fluidseal. The vertical walls, vehicle floor, tailgate or both may connect atsubstantially 90 degree angles (e.g ±1 degree or more, ±3 degrees ormore, ±5 degrees or more, ±7 degrees or more, ±9 degrees or more). Thevertical walls and the side rails may form a connection by clamps,fasteners, hooks, holes, clips, or a combination thereof.

The cab wall may function to connect the vehicle bed and the vehiclecab. The cab wall and the tailgate may be parallel. The cab wall and thetailgate may be substantially the same width. The cab wall may hold theflexible cover in a rolled or stored position. The cab wall and theflexible cover may be attached. The cab wall and the side rails mayconnect. The cab wall and the flexible cover may not be attached. Thecab wall may contact the vehicle floor or vertical wall at asubstantially 90 degree angle (e.g ±1 degree or more, ±3 degrees ormore, ±5 degrees or more, ±7 degrees or more, ±9 degrees or more).

The tailgate may function to open the vehicle bed. The tailgate mayrealeasably connect to the one or more vertical walls. The tailgate mayreleasably connect to the one or more side rails. The tailgate mayreleaseably connect with the vehicle floor. The tailgate and theflexible cover may be connected. The tailgate and the flexible cover mayform a fluid seal. The tailgate may contact a side rail. The tailgateand side rail may form a connection. The cab wall may contact thevehicle floor or vertical wall at a substantially 90 degree angle (e.g±1 degree or more, ±3 degrees or more, ±5 degrees or more, ±7 degrees ormore, ±9 degrees or more).

The flexible cover may function to cover the entire vehicle bed, cover avolume over the vehicle bed, or both. The flexible cover may be orinclude vinyl, fabric, a water resistant material, a polymer, metal, areinforcing material, aramid fiber, a rubber, an elastomer, or acombination thereof. The flexible cover may be stored in a containerthat is near the cab of the vehicle when the flexible cover isunengaged. An upper surface of the flexible cover may include a coating.An upper surface of the flexible cover may be sealed with a coating(e.g., a coating that is water resistant, water proof, UV protection). Alower surface of the flexible covering may include a portion of afastener (e.g., a hook and loop fastener (i.e., the hooks or preferablythe loops)). The portion of the fastener on the flexible cover may notengage until a force is applied to the flexible cover while the flexiblecover rests on the portion of the fastener connected to the side rails.The fasteners on the flexible cover may not fully engage until a forceis applied to the fasteners on both sides of the flexible cover (e.g.,opposing edges of the flexible cover on a same surface (e.g., bottomsurface)). The flexible cover may be engaged when fully extended overthe vehicle bed. The flexible cover may be unengaged when fully extendedover the vehicle bed. The flexible cover may be unengaged when rolled upagainst the cab of the vehicle. The flexible cover may be partiallyunengaged and partially engaged when rolled up partially along the siderails. Preferably, the flexible cover may be unengaged when partially orfully rolled along the side rails until an attachment step is performedwhere the two opposing portions of the fasteners are connected. Theflexible cover may include strips of fasteners on either lateral side ofthe flexible cover. Each lateral side of the flexible cover may includeat least one strip of loop fasteners. Preferably, the flexible cover mayinclude at least two strips of loop fasteners on each of the lateralsides of the flexible covering. The flexible cover may include one ormore strips of fasteners or two or more strips of fasteners along aforward edge region, a rear edge region, a first lateral edge region, asecond lateral edge region, or a combination thereof.

The fastener assembly may function to connect a flexible cover over thevehicle bed. The fastener assembly may include two or more portions. Thefastener assembly may include one or more cover fasteners and one ormore side rail fasteners. The fastener assembly may connect a cover to avehicle so that during vehicle movement the cover is prevented frommoving from the bed. The one or more cover fasteners when connected tothe one or more side rail fasteners form a connection with the flexiblecover and the side rails that are connected with the walls of the bed(e.g., vertical walls, cab wall, tailgate).

The cover fasteners may function to releasably connect the flexiblecover and the side rail side rail fastener. The cover fasteners mayinclude one or more strips of loop fasteners, a base, or both. The coverfasteners may include one or more strips of loop fasteners, two or morestrips of loop fasteners, three or more strips of loop fasteners, orfour or more strips of loop fasteners. The cover fastener may include abase that attaches with the flexible cover. The strips of loop fastenersmay be attached with the base of the cover fastener. Each strip of loopfasteners may be attached with a separate base of the cover fastener.The cover fasteners may be attached to the flexible cover by amechanical fastener, a chemical fastener, or both. The mechanicalfastener may be sewing, stapling, wire, melting, heat staking,ultrasonic welding, or a combination thereof. The chemical fastener maybe an adhesive, a single part epoxy, a two-part epoxy, a peel and sticktape, or a combination thereof. The cover fasteners may be opposite ofside rail fasteners, and the side rail fasteners may include hooks forengagement with the loop fasteners of the cover fastener. The coverfasteners and the side rail fasteners may connect at the dual hooks,opposing duals hooks, or both. Specifically, the loop fasteners mayconnect at the front hook, rear hook, or both as described herein. Thecover fasteners may include dual hooks, opposing dual hooks, loopfasteners, or a combination thereof. The strip of loop fastener may notengage with the side rail fasteners without a force being applied to theflexible cover. The strip of loop fasteners may engage when a force isapplied to the flexible cover.

The strips of loop fasteners may function to connect the cover over thebed. The strip of loop fasteners may attach to a base of the coverfastener by a mechanical fastener, a chemical fastener, or both. Themechanical fastener may be sewing, stapling, wire, melting, heatstaking, ultrasonic welding, or a combination thereof. The chemicalfastener may be an adhesive, a single part epoxy, a two-part epoxy, apeel and stick tape, or a combination thereof. The strip of loopfasteners may rest on the spacers. The strip of loop fasteners may reston the external flange, internal flange, or both. The strip of loopfasteners may engage with the connection lip of the front hook, rearhook, or both of the dual hooks, opposing dual hooks, or both. The stripof loop fasteners may be substantially the same width as base of theside rail fastener (e.g., ±0.1 cm, ±0.5 cm, or ±1 cm). The strip of loopfasteners completely covers the side rails. The strip of loop fastenersmay cover a portion of the side rails. The ratio of strips of loopfasteners and the side rail fasteners may be 1:1. The strip of loopfasteners may rest on the side rails.

The side rails may function to support the flexible cover. There may beone or more, two or more, three or more, or four or more side rails. Theside rails may function to support the flexible cover over the vehiclebed. The side rails may contact the vertical walls. The vertical wallsand the side rails may be connected by clamps, screws, bolts, slamlatches, or a combination thereof. The side rails may include anextension plate that rests on the vertical walls. The side rails may notinclude an extension plate. The side rails may include a connectingportion and a longitudinal portion that supports the flexible cover. Theside rails may be connected to a vertical wall of the vehicle bed. Theside rails may include a connection feature that assists the connectionbetween the side rails and the vehicle bed. The side rails may be angledto prevent pre-engagement of the fastener assembly. Specifically, theside rails may include an external flange, an internal flange, fastenersupports, or a combination thereof. The internal flange may be elevatedabove the external flange when the vehicle bed and the side rail areconnected. The fastener support may slope down at an angle from theinternal flange and the external flange. The angle of the fastenersupport, relative to the clamp plate, the connecting portion, or both,may be 90 degrees or more, 100 degrees or more, 110 degrees or more, 120degrees or more, 125 degrees or more, or 130 degrees or more. The angleof the fastener support may be 150 degrees or less, 145 degrees or less,140 degrees or less, or 135 degrees or less. The side rail fasteners maycontact the side rails at the fastener support between the externalflange and the internal flange. The side rail may contact the vehiclebed at the clamp plate.

The clamp plate may function to connect the vehicle bed and the siderails. The clamp plate may include a plurality of ribs that function tosecure an attachment piece to the clamp plate. The attachment piece maybe a bolt, a screw, a clamp, a slam latch, or any similar clampingmeans. The clamp plate and the connecting portion may be parallel. Theclamp plate and the lateral wall of the vehicle bed may be parallel. Theclamp plate may connect to the extension plate at a perpendicular angle.

The plurality of ribs may function to secure an attachment piece and theclamp plate so that the side rails and the vertical walls connect. Theplurality of ribs may substantially grip a clamp so that the clamp stayssecure during vehicle movement (e.g., the clamp will be not slide off ofthe clamp plate while engaged). The clamp plate may include a pluralityof ribs that may be 1, or more 2 or more, 3 or more, 4 or more, 5 ormore, 6 or more, or 7 or more ribs. The ribs may be rounded, curved,pointed, triangular, square or a combination thereof. The clamp platemay contact and support the extension plate.

The extension plate may function to support the side rail on the vehiclebed. The extension plate may extend away from the clamp plate toward thelateral edge of the vertical walls. The extension plate may support theweight of the flexible cover. The extension plate may be above a topsurface of the vehicle bed. The extension plate may be below a topsurface of the vehicle bed. The extension plate may assist in creating awater seal between the vertical walls of the truck bed and the siderails. The extension plate may extend away from the flexible cover. Theside rail includes a connecting portion that may help to support theflexible cover.

The connecting portion may function to connect the longitudinal pieceand the fastener support. The connecting portion may contact thefastener support at an angle. The angle may be 90 degrees of more, 95degrees or more, 100 degrees or more, 105 degrees or more, 110 degreesor more, or 115 degrees or more. The angle may be 145 degrees or less,140 degrees or less, 135 degrees or less, 130 degrees or less, 125degrees or less, or 120 degrees. The connecting portion may contact thelongitudinal piece at a substantially right angle so that the flexiblecover may evenly rest on the longitudinal piece (i.e., 90 degrees and ±5degrees). The connecting portion may include a ridge that is level withthe hook such that an object may be slid and supported between the hookand the ridge. The connecting portion may extend below the lowest pointof the clamp plate. The connecting portion may extend to above thelowest point of the clamp plate. The connecting portion may be adjacentto the longitudinal portion.

The longitudinal portion may function to support the flexible cover. Thelongitudinal portion may be substantially planar such that the flexiblecover may lay flat on the side rails. The longitudinal portion may besubstantially level, substantially parallel to the bed, or both. Thelongitudinal portion may contact the connecting portion. Thelongitudinal portion may be substantially planar along the length of thelongitudinal portion. The longitudinal portion may include one or moredepressions that may extend the length of the side rail. Thelongitudinal portion may include one or more apertures for connectingthe side rail and the vehicle bed. The longitudinal portion may includeone or more apertures for connecting the side rail and the flexiblecover. The longitudinal portion may connect to and extend from theconnecting portion. The longitudinal portion may extend cantilever fromthe connecting portion. The connecting portion may include a hook.

The hook may be an extension of the fastener support. The hook may havean L-shape, C-shape, or V-shape. The hook may be a support member for anobject. The hook may extend from a rear surface of the fastener support.The hook may extend towards the bed of the vehicle. The hook may belevel with the ridge of the connecting portion.

The ridge may be an extension of the connecting portion. The ridge mayextend towards the clamp plate. The ridge may extend towards the clampplate at an angle of 90 degrees or less, 85 degrees or less, 80 degreesor less, 75 degrees or less, or 70 degrees or less. The ridge may belevel with the hook such that an object may be slide between the ridgeand the hook. An object may rest on the ridge and the hook and supportedby the ridge and the hook.

The external flange may function to assist in preventing pre-engagementof the fastener assembly. The external flange may prevent pre-engagementof a portion of the cover fasteners (e.g., an external edge of a stripof the cover fasteners with an internal edge of the strip of bedfasteners). The external flange may be located on an opposite side ofthe fastener support than the internal flange. The external flange maybe proximate to the vertical wall of the vehicle bed, the extensionplate, the clamp plate, or a combination thereof. The external flangemay be lowered below the internal flange by 0.1 cm or more. 0.3 cm ormore, 0.5 cm or more, 0.7 cm or more, or 0.9 cm or more. The externalflange may be lowered below the internal flange by 1 cm or more, 2 cm ormore, or 3 cm or more. The external flange may be lowered below theinternal flange by 15 cm or less, 10 cm or less, or 5 cm or less. Theexternal flange may be the lowest point of the sloped fastener supportas described herein. A distal portion of the external flange may contacta spacer, dual hook, opposing dual hook, or a combination thereof. Theexternal flange may be located in an edge region of the fastener supportor may extend to the external edge of the fastener assembly. Theexternal flange may be substantially L-shape, C-shape, or V-shape sothat the external flange may hang over the base of the side railfasteners. The external flange may partially cover the side railfasteners such that the external flange substantially preventspre-engagement of the fastener assembly (e.g., the strips of loopfasteners will not engage with the dual hooks, opposing dual hooks, orboth without a force being applied). The external flange may function tosupport the flexible cover on the side rails. The external flange maysubstantially prevent pre-engagement of the fastener assembly byproviding a physical buffer so that a force on the flexible cover isrequired to engage the fastener assembly. The external flange and theinternal flange may in combination substantially prevent pre-engagementof the fastener assembly. The external flange and the internal flangemay function together to prevent pre-engagement of the flexible cover.

The internal flange may function to prevent pre-engagement of thefastener assembly. Preferably, the external flange may preventpre-engagement of a portion of the cover fastener (e.g., an internaledge of a strip of the cover fasteners with the internal edge of thestrip of bed fasteners). The internal flange may be proximate to thelongitudinal piece, connecting portion, or both. The internal flange maycontact a portion of the lower surface of the flexible cover that doesnot include fasteners. The internal flange may be elevated above theexternal flange by 0.1 cm or more. 0.3 cm or more, 0.5 cm or more, 0.7cm or more, or 0.9 cm or more. The internal flange may be elevated aboveexternal flange by 1 cm or more, 2 cm or more, or 3 cm or more. Theinternal flange may be elevated above the external flange by 15 cm orless, 10 cm or less, or 5 cm or less. The internal flange may be thehighest point of the sloped fastener support as described herein. Theinternal flange may be the highest point of the side rails such that theinternal flange is the first point of contact when the flexible cover isengaged, partially engaged, unengaged, or a combination thereof. Adistal portion of the internal flange may contact a spacer, dual hook,opposing dual hook, or a combination thereof. The internal flange may belocated at the inner edge region of the fastener support. The internalflange may extend over the external edge of the fastener assembly. Theinternal flange may be substantially L-shape, C-shape, or V-shape sothat the internal flange may hang over the base of the side railfasteners. The internal flange may partially cover the side railfasteners such that the internal flange prevents pre-engagement of thefastener assembly. The internal flange may contact the internal edge ofthe fastener assembly. The internal flange may partially cover the siderail fasteners such that the internal flange prevents pre-engagement ofthe fastener assembly. The internal flange may function to support theflexible cover on the side rails. The internal flange may define theinner most portion of the fastener support (e.g., the closest portion tothe center of the vehicle bed).

The fastener support may function to support the side rail fasteners onthe side rails. The fastener support may be substantially planar (e.g.,within about ±5 percent or less, preferably ±3 percent or less, or morepreferably ±1 percent or less angle from the plane). Preferably, thefastener support may be elevated above the vertical walls of the vehiclebed. The fastener support may be slanted. The fastener support mayextend at an angle relative to the internal flange, the external flange,or both. The angle may be about 90 degrees or more, about 95 degrees ormore, about 100 degrees or more, or about 102 degrees or more (i.e.,about 105 degrees) relative to the internal flange, the external flange,or both. The angle may be about 135 degrees or less, about 125 degreesor less, or about 115 degrees or less relative to the internal flange,the external flange, or both. The fastener support may have a downwardslope relative defined by the internal flange down to the externalflange. The fastener support and the side rail fasteners may beconnected by a mechanical fastener, a chemical fastener, or both as arediscussed herein. The fastener support may include a hook that is levelwith the ridge. The fastener support may be contacting the side railfasteners such that the fastener support and side rail fasteners aresubstantially flat.

The side rail fasteners may function to assist in connecting theflexible cover and the side rails. The side rail fasteners may include abase and a plurality of rows of fasteners. The side rail fasteners maycover the fastener support across the length of the side rail. The siderail fasteners may cover a portion of the fastener support across thelength of the side rail. The side rail fasteners may cover an endportion of the fastener support across the length of the side rail. Theside rail fasteners may contact the external flange, the internalflange, or both. The side rail fasteners may be substantially as wide asthe fastener support. The side rail fasteners may be partially coveredby the external flange, the internal flange or both such that theexternal flange, the internal flange, or both work with the plurality ofspacer to prevent pre-engagement of the strip of loop fasteners. Theside rail fasteners may include rows of fasteners. The side railfasteners may include one or more rows of fasteners; two or more rows offasteners; three of more rows of fasteners; four or more rows offasteners; five or more rows of fasteners; six or more rows offasteners; seven or more rows of fasteners; or a plurality of rows offasteners. The cover fasteners, the side rail fasteners, or both mayhave a hook density of about 30 hooks or more per cm², about 40 hooks ormore per cm², about 50 hooks or more per cm², about 100 hooks or moreper cm², about 150 hooks or more per cm², about 200 hooks or more percm², or about 250 hooks or more per cm². The cover fasteners, the siderail fasteners, or both may have about 1000 hooks or less per cm², about750 hooks or less per cm², about 600 hooks or less per cm², about 500hooks or less per cm², or about 400 hooks or less per cm². The coverfasteners, side rail fasteners, or both may have a hook density fromabout 39 hooks to about 620 hooks per cm². The side rail fasteners,cover fasteners, or both may have a spacer density of 30 spacers or moreper cm², about 40 spacers or more per cm², about 50 spacers or more percm², about 100 spacers or more per cm², about 150 spacers or more percm², about 200 spacers or more per cm², or about 250 spacers or more percm². The cover fasteners, the side rail fasteners, or both may haveabout 1000 spacers or less per cm², about 750 spacers or less per cm²,about 600 spacers or less per cm², about 500 spacers or less per cm², orabout 400 spacers or less per cm². Each row of fasteners may beseparated by a distance. The distance may be 0.1 μm or more, 0.2 μm ormore, 0.3 μm or more, 0.4 μm or more, or 0.5 μm or more. The distance D1may be 1.0 μm or more, 1.5 μm or more, 2.0 μm or more, 2.5 μm or more,or 3.0 μm or more. The distance may be 10 μm or more, 15 μm or more, 20μm or more, 25 μm or more, of 30 μm or more. The distance may be 100 μmor more, 150 μm or more, 200 μm or more, 250 μm or more, of 300 μm ormore. The distance may be 1000 μm or less, 800 μm or less, 600 μm orless, or 400 μm or less. The rows of fasteners in the side railfasteners may include dual hooks, opposing dual hooks, spacers, or acombination thereof. The height of the spacers may be substantially thesame throughout the plurality of rows of fasteners. The height of thedual hooks, the opposing dual hooks, or both may be substantially thesame throughout the plurality of rows of fasteners. The height of thespacers may be elevated above the dual hooks, opposing dual hooks, orboth by a distance. The distance may be 0.1 μm or more, 0.2 μm or more,0.3 μm or more, 0.4 μm or more, or 0.5 μm or more. The distance may be1.0 μm or more, 1.5 μm or more, 2.0 μm or more, 2.5 μm or more, or 3.0μm or more. The distance may be 10 μm or more 15 μm or more, 20 μm ormore, 25 μm or more, or 30 μm or more. The distance may be 100 μm ormore, 150 μm or more, 200 μm or more, 250 μm or more, or 300 pm or more.The distance may be 100 μm or more, 150 μm or more, 200 μm or more, 250μm or more, of 300 μm or more. The distance may be 1000 μm or less, 800μm or less, 600 μm or less, or 400 μm or less. The external flange,internal flange, and plurality of spacers may be elevated to asufficiently tall height such that the flexible cover may rest on theside rails without engaging the strip of loop fasteners. The externalflange, internal flange, plurality of spacers, or a combination thereofmay be elevated by a distance to substantially prevent pre-engagement ofthe fastener assembly (e.g., the fastener assembly may not engage untila force is applied). The side rail fasteners may include a base thatcontacts the fastener support.

The base of the side rail fasteners may function to contact the fastenersupport. The base may have a thickness from about 0.00025 mm to about5.0 mm or more. The base may be connected with the plurality of spacers,plurality of opposing dual hooks, the plurality of dual hooks, or acombination thereof. The base may function to support the plurality ofspacers, plurality of opposing dual hooks, the plurality of dual hooks,or a combination thereof in a vertical position. The base may be vinyl,fabric, rubber, cloth, or a combination thereof. The base may be rigidor flexible. The base may cover the entire fastener support. The basemay only cover a portion of the fastener support. The base and thesupport structure may be molded together.

The support structure may function to support the plurality of spacers,the plurality of dual hooks, the plurality of opposing dual hooks, or acombination thereof such that the plurality of spacers, the plurality ofhooks, the plurality of opposing dual hooks, or a combination thereofremain in a vertical position. The support structure may contact thebase of the side rail fasteners. The support structure and the base ofthe side rail fasteners may be a molded structure. The support structuremay run the length of the side rail fasteners. The support structure maybe parallel with the longest edge of the side rails. The side railfasteners may include one or more, two or more, three or more, four ormore, or five or more support structures in each the row of fasteners.The support structure and the dual hooks may be connected. The supportstructure and the dual hooks may be molded together. The supportstructure may run through the plurality of spacers, the plurality ofdual hooks, the plurality of opposing hooks, or a combination thereofacross the length of the row of fasteners.

The row of fasteners may function to create a strip of hook fastenersthat connect with the strip of loop fasteners. The row of fasteners mayinclude a support structure, a plurality of dual hooks, a plurality ofopposing dual hooks, a plurality of spacers, or a combination thereof.The row of fasteners may include one or more, two or more, three ormore, or four or more support structures. The row of fasteners may haveone or more support structures across the length of the row offasteners. The row of fasteners may be substantially perpendicular tothe external flange, the internal flange, or both. The plurality ofspacers, the external flange, the internal flange, or a combinationthereof may prevent pre-engagement of the strip of loop fasteners suchthat a force may be applied to the flexible cover to engage the flexiblecover and the side rails. The row of fasteners may include a pluralityof spacers that may be elevated above the plurality of dual hooks, theplurality of opposing dual hooks or both such that the spacers preventpre-engagement of the strip of loop fasteners. The spacers maysubstantially prevent pre-engagement by elevating the cover fastenersabove the end fasteners (e.g., one or more ends of a hook may contactone or more loops but 10 percent or less or preferably 5 percent or lessof the hooks (e.g., front hook, rear hook, or both) may be in contactwith a loop). The row of fasteners may have a ratio of spacers to dualhooks of 1:1 or more, 1:2 or more, 1:3 or more, 1:4 or more, 1:5 ormore, 1:6 or more, or 1:7 or more. The row of fasteners may have a ratioof dual hooks to opposing dual hooks of 1:1 or more, 1:2 or more, 1:3 ormore, or 1:4 or more. Preferably, the ratio of dual hooks to opposingdual hooks is 1:1. The row of fasteners may form a pattern of dual hookssuch that the dual hooks, opposing dual hooks, and spacers alternate.

The dual hooks may function to engage with the strip of loop fasteners.The dual hooks may have a vertical length of about 0.025 mm to about2.54 mm. Preferably, the dual hooks may have a vertical length of about0.300 mm to about 0.800 mm. The dual hooks may be supported in avertical position by the one or more support structures. The dual hooksmay include a top edge, a front hook, a rear hook, a connection edge, atrench, or a combination thereof. The front hook of the dual hooks andthe front hook of the opposing dual hooks may face opposite directions.The dual hooks may alternate with the opposing dual hooks in the row ofthe fasteners. For example, a dual hook may precede an opposing dualhook, another hook may follow the opposing dual hook, and anotheropposing dual hook may follow the another dual hook so that the dualhooks and the opposing dual hooks form a pattern in the row offasteners. The dual hooks may alternate with the spacers in the row offasteners. The front hook, the rear hook, or both of the dual hooks mayengage with the strip of loop fasteners. The front hook and the rearhook of each the dual hooks may face the same direction. For example, ahook may have a front hook and a rear hook and the front hook and therear hook may extend in a same direction. The top surface of the dualhooks may be lowered below the upper surface of the spacers by distance.The distance may be 0.1 μm or more, 0.2 μm or more, 0.3 μm or more, 0.4μm or more, or 0.5 μm or more. The distance may be 1.0 μm or more, 1.5μm or more, 2.0 μm or more, 2.5 μm or more, or 3.0 μm or more. Thedistance may be 10 μm or more 15 μm or more, 20 μm or more, 25 μm ormore, or 30 μm or more. The distance may be 100 μm or more, 150 μm ormore, 200 μm or more, 250 μm or more, or 300 μm or more. The distancemay be 100 μm or more, 150 μm or more, 200 μm or more, 250 μm or more,of 300 μm or more. The distance may be 1000 μm or less, 800 μm or less,600 μm or less, or 400 μm or less. The top surface of the dual hooks mayhave a height that is below the external flange, the internal flange, orboth. The height of the dual hooks may be less than the external flange,the internal flange, or both so that the flanges prevent pre-engagementof the cover fasteners to the bed fasteners located proximate to theflanges. The total width of the dual hooks may be measured from theconnection lip of the front hook to the angled wall of the rear hook.The total width of the spacers may be measured from one side edge to theopposing side edge. The total width of the dual hooks may be the same asthe total width of the spacers. The total width of the dual hooks may beless than the total width of the spacers. The total width of the dualhooks may be greater than the total width of the spacers such that theconnection lip extends outside the side edge of the spacer. The totalwidth of the dual hooks may be greater than the total width of thespacers such that the connection lip of the front hook may engage withthe strip of loop fasteners outside of the side edge of the spacer. Atip of a dual hook may extend beyond the spacer in a first direction anda tip of a dual hook or opposing dual hook may not extend beyond thespacer in a second direction. Each dual hook or opposing dual hook mayhave one tip that extends beyond a spacer. Each dual hook or opposingdual hook may have two tips that are located within an area of thespacer (e.g., no tips extend beyond an edge of the spacer). The dualhooks may be parallel with the spacers, opposing dual hooks, or both.The dual hooks may be perpendicular with the external flange, theinternal flange, or both.

The opposing dual hooks may function to engage with the strip of loopfasteners. The opposing dual hooks may have a vertical length of about0.025 mm to about 2.54 mm. Preferably, the opposing dual hooks may havea vertical length of about 0.300 mm to about 0.800 mm. The opposing dualhooks may be supported in a vertical position by the one or more supportstructures. The opposing dual hooks include a top edge, a front hook, arear hook, a connection edge, a trench, or a combination thereof. Theopposing dual hooks may be a reverse mirror image of dual hooks. Thefront hook of the opposing dual hooks and the front hook of the dualhooks may face opposite directions. The front hook, the rear hook, orboth of the opposing dual hooks may engage with the strip of loopfasteners. The front hook and the rear hook of the opposing dual hooksmay face the same direction. The top surface of the opposing dual hooksmay be lowered below the upper surface of the spacers by a distance. Thedistance may be 0.1 μm or more, 0.2 μm or more, 0.3 μm or more, 0.4 μmor more, or 0.5 μm or more. The distance may be 1.0 μm or more, 1.5 μmor more, 2.0 μm or more, 2.5 μm or more, or 3.0 μm or more. The distancemay be 10 μm or more 15 μm or more, 20 μm or more, 25 μm or more, or 30μm or more. The distance may be 100 μm or more, 150 μm or more, 200 μmor more, 250 μm or more, or 300 μm or more. The distance may be 100 μmor more, 150 μm or more, 200 μm or more, 250 μm or more, of 300 μm ormore. The distance may be 1000 μm or less, 800 μm or less, 600 μm orless, or 400 μm or less. The top surface of the opposing dual hooks maybe lowered below the external flange, the internal flange, or both. Thetotal width of the opposing dual hooks may be measured from theconnection lip of the front hook to the angled wall of the rear hook.The total width of the spacers may be measured from one side edge to theopposing side edge. The total width of the opposing dual hooks may bethe same as the total width of the spacers. The total width of theopposing dual hooks may be less than the total width of the spacers. Thetotal width of the opposing dual hooks may be greater than the totalwidth of the spacers such that the connection lip extends outside theside edge of the spacer. The total width of the opposing dual hooks maybe greater than the total width of the spacers such that the connectionlip of the front hook may engage with the strip of loop fastenersoutside of the side edge of the spacer. The opposing dual hooks may beparallel with the spacers, dual hooks, or both. The opposing dual hooksmay be perpendicular with the external flange, the internal flange, orboth.

The front hook may function to engage with the strip of loop fasteners.The front hook may include a connection lip, a top edge, and a roundededge. Specifically, the front hook may engage with the strip of loopfasteners at the connection lip. The front hook may be the furthestlateral point of the dual hook, opposing dual hook, or both. The fronthook may be the only point of engagement with the strip of loopfasteners. The connection lip of the front hook may extend laterallyoutside of the side edge of the spacer by a horizontal distance. Thefront hook may be rounded, crescent, bracketed, ribbed, square, or acombination thereof. The rounded edge of the front hook may be proximateto the rear hook.

The rear hook may function to engage with the strip of loop fasteners.The rear hook may include a connection lip, a top edge, and an angledwall. Specifically, the rear hook may engage with the strip of loopfasteners at the connection lip. The connection lip of the rear hook maybe proximate to the front hook. The rear hook may be a point ofengagement with the strip of loop fasteners. The rear hook may berounded, crescent, bracketed, ribbed, square, or a combination thereof.The rear hook may hang over the trench.

The trench may function to support the front hook, rear hook, or both.The trench may support the front hook, rear hook, or both in a verticalposition. The trench may function to create a space for the strip ofloop fasteners to engage with the rear hook of the dual hook, opposingdual hook, or both. The trench may contact the support structure. Thetrench may be a vertical distance below the top edge of the dual hooks,the upper surface of the spacers, or both. The trench may be locatedbetween the connection lip of the rear hook and the rounded edge of thefront hook.

The connection lip or tip may function to connect the strip of fastenersand the front hook, the rear hook, or both. The connection lip maysubstantially curve into a point. The connection lip may slope down intothe connection edge of the dual hook, opposing dual hook, or both. Theconnection lip and the strip of loop fasteners may connect such that theflexible cover is secure and engaged on the side rails and encased overthe vehicle bed. The connection lip may be sufficiently below the uppersurface of the spacer such that a force is needed to engage theconnection lip and the loop fastener. The connection lip and loopfastener may engage when a force is applied to the flexible cover suchthat the loop fasteners are pushed down past the elevated upper surfaceof the plurality of spacers and the top edge of the dual hooks. Theconnection lip may curve into a point, a rounded edge, a hooked edge, acrescent edge, or a combination thereof. The connection lip may slantdownward (e.g., be angled down towards the bed of the vehicle) towardthe base or may slant upward and away from the base of the side railfasteners. The connection lip may be vertically opposing the top edge ofthe dual hook, opposing dual hook, or both.

The top edge of the front hook, rear hook, or both may function todefine the highest point of the dual hook, the opposing dual hook, orboth. The top edge may be rounded. The top edge may be a distinct point.The top edge may contact the connection lip, the rounded edge, theangled wall, or a combination thereof. The top edge may be elevatedabove the support structure. The top edge may be lowered below the uppersurface of the spacers by a distance as described herein. The top edgemay be lowered below the internal flange, the external flange, or bothby a vertical distance relative to the base of side rail fasteners. Thetop edge may be the same height as the plurality of spacers, externalflange, internal flange, or a combination thereof. The top edge of therear hook may slant downward towards the angled wall.

The angled wall may define the back portion of the rear hook. The angledwall may contact the top edge of the rear hook. The angled wall maycontact the connection edge. The angled wall may be proximate to theside edge of the spacer. The angled wall may have an angled positionrelative to the base of the side rail fasteners. The angled position ofthe angled wall may be 90 degrees or less, 87 degrees or less, or 85degrees or less. The angled position may be, 83 degrees or more, 80degrees or more, or 75 degrees or more. The angled wall may besubstantially planar. The angle wall may be substantially curved. Theangled wall and the top edge of the rear hook may form a point when incontact. The angled wall and the top edge of the rear hook may berounded when in contact. The angled wall may be substantially similar tothe rounded edge of the front hook.

The rounded edge may function to define the portion between the trenchand the top edge of the front hook. The rounded edge may be curved,pointed, crescent, jagged, or a combination thereof. The rounded edgemay be lowered below the top edge of the front hook, rear hook, or both.The rounded edge may be laterally opposite to the connection edge of therear hook relative to the trench.

The connection edge may function to connect the base of the side railfasteners and the dual hooks. The connection edge may be the onlyportion of the dual hooks that contacts the base. The connection edgemay function to define the mold between the dual hooks and the base ofthe side rail fasteners. The connection edge of the dual hooks may belevel with the bottom edge of the spacers, the support structure, orboth.

The spacer may function to prevent pre-engagement of the dual hooks andthe strip of loop fasteners. The spacers may have a vertical length ofabout 0.05 mm to about 3.00 mm. Preferably, the dual hooks may have avertical length of about 0.350 mm to about 0.850 mm. The spacers mayextend above the dual hooks, the opposing dual hooks, or both so thatstrops of loop fasteners are prevented from connecting to the dualhooks, the opposing dual hooks, or both when a cover is moved over thebed. The spacer may have a height that is greater than a height of thedual hooks, the opposing dual hooks, or both by a distance of about0.001 mm or more, about 0.01 mm or more, about 0.05 mm or more, about0.1 mm or more, about 0.5 mm or more, about 1 mm or more, about 2 mm ormore, about 5 mm or more about 7.5 mm or more, about 2 cm or less, orabout 1 cm or less. For example, an upper surface of the spacer mayextend about a highest point, a tip, or both of the dual hooks oropposing dual hooks by a distance so that loops are prevented fromforming a connection with the dual hooks or opposing dual hooks. Thespacers may include an upper surface, side edge, and bottom edge. Thespacers may be triangular, square, pentagonal, hexagonal, heptagonal,octagonal, or a combination thereof. The edges of the spacers may berounded, pointed, squared, jagged, or a combination thereof. The curvededge of the spacer may be where the side edge and the upper surfacecontact. The curved edge of the spacers may be rounded or pointed. Theupper surface of the spacers may be elevated above the top edge of thedual hooks, the opposing dual hooks, or both by a distance as describedabove. In the row of fasteners, the spacers may alternate with the dualhooks, opposing dual hooks, or both. The ratio of spacers to dual hooksmay be 1:1 or more, 1:2 or more, 1:3 or more, 1:4 or more, or 1:5 ormore. The ratio of spacers to opposing dual hooks may be 1:1 or more,1:2 or more, 1:3 or more, 1:4 or more, or 1:5 or more. The upper surfaceof the spacers, and the external flange and internal flange may be thesame height relative to the fastener support. The upper surface of thespacer may be lowered below the external flange and internal flange by avertical distance as described herein. The upper surface of the spacersmay be substantially the same height as the external flange, theinternal flange, or both. The spacers may be substantially the samewidth as the dual hooks, opposing dual hooks, or both. The curved edgeand upper surface of the spacer may substantially prevent pre-engagementof the loop fasteners and dual hooks such that the spacer is a physicalbuffer between the loop fasteners and dual hooks.

The curved edge may function to define the point of contact between theside edge of the spacer and the upper surface of the spacer. The curvededge may be rounded, pointed, jagged, or a combination thereof.

The upper surface may define the highest point of the spacer. The uppersurface may be rounded. The upper surface may be pointed. The uppersurface may be a plurality of points that are the same height. The uppersurface may be substantially level, relative to the fastener support,with the external flange, the internal flange, or both. The uppersurface of the spacer may be elevated above the spacers by a distance asdescribed above.

The side edge may function to define the lateral edges of the spacers.The side edge may be substantially straight. The side edge may berounded. The side edge may be angled relative to the base of the siderail fasteners. The angle of the side edge may be 90 degrees or less; 88degrees or less; 86 degrees or less. The angle of the side edge may be80 degrees or more, 82 degrees or more, or 84 degrees of more.Preferably, the angle of the side edge is a right angle (i.e., about 90degrees). The distance from one side edge to an opposing side edge maydefine a total width of the spacer. For the dual hooks, opposing dualhooks, or both, the distance from the connection lip of the front hookto the angled wall of the rear hook may define a total width of the dualhooks. The total width of the spacers and the total width of the dualhooks may be substantially the same. The total width of the spacer maybe less than the total width of the dual hooks such that the front hookof the dual hook protrudes past the side edge of the spacers. The totalwidth of the spacer may be more than the total width of the dual hookssuch that the spacers prevent pre-engagement of the dual hooks and thestrip of loop fasteners.

The bottom edge may function to connect the spacer to the base of theside rail fasteners. The bottom edge may be level with the lowest pointof the support structure. The bottom edge may be level with theconnection edge of the dual hooks, opposing dual hooks, or both. Thebottom edge may define a mold between the spacer and the base. Thebottom edge may be an adhesive between the spacer and the base.

FIG. 1 is a perspective view of a vehicle cover assembly 100. Thevehicle cover assembly 100 includes a vehicle bed 104, flexible cover106, and side rails 108. The vehicle bed 104 includes a vehicle floor103, two vertical walls 105 that oppose each other, a cab wall 107, anda tailgate 109 that in combination from a box with an open top. Thevehicle floor 103 is contacting the cab wall 107, the two opposingvertical walls 105, and the tailgate 109. The cab wall 107, the twoopposing vertical walls 105, and the tailgate 109 extend verticallyabove the vehicle floor 103. The cab wall 107 is closest to the vehiclecab 101. The tailgate 109 is the farthest wall from the vehicle cab 101.The flexible cover 106 includes a cover fastener 12 with a strip of loopfasteners 102. The side rail fasteners 14 releasably connect with thestrip of loop fasteners 102 when the flexible cover 106 is covering thevehicle bed 104. The side rails 108 include side rail fasteners 14. Thevertical wall 105 of the vehicle bed 104 and the side rails 108 areconnected.

FIG. 2A is a perspective view of a side rail 108. The side rail 108includes a clamp plate 110, a fastener support 126, a side rail fastener14, a connection portion 114, and a longitudinal portion 124. The clampplate 110 and fastener support 126 connect at the external side of theside rail 108. The clamp plate 110 includes an extension plate 112. Theconnection portion 114 includes a ridge 122 that extends toward theclamp plate 110 of the side rail 108. The connection portion 114 and thefastener support 126 connect at the internal side of the side rail 108.The connection portion 114 and the longitudinal portion 124 connect andare perpendicular to each other. The fastener support 126 includes anexternal flange 116, an internal flange 118, and a hook 120. Theinternal flange 118 and the external flange 116 both partially cover theside rail fastener 14. The side rail fastener 14 is positioned betweenthe external flange 116 and the internal flange 118, and the side railfastener 14 substantially covers the fastener support 128 between theexternal flange 116 and the internal flange 118. side rail fastener 14contacts the fastener support 126 at the base 6 of the side railfastener 14.

FIG. 2B is a side view of a side rail 108. The side rail 108 includes aclamp plate 110, a fastener support 126, a side rail fastener 14, aconnection portion 114, and a longitudinal portion 124. The base 6 andside rail fasteners 14 extend at an angle (β) relative to a horizontalplane. The clamp plate 110 includes a plurality of ribs 128. The clampplate 110 and fastener support 126 connect at the external side of theside rail 108. The clamp plate 110 includes an extension plate 112 thatextends towards lateral edge of the of the vehicle bed (not shown). Theconnection portion 114 includes a ridge 122 that extends toward theexternal side of the side rail 108. The connection portion 114 and thefastener support 126 connect at the internal side of the side rail 108.The connection portion 114 and the longitudinal portion 124 connect andare perpendicular to each other. The fastener support 126 includes anexternal flange 116, an internal flange 118, and a hook 120. Theinternal flange 118 is elevated above the external flange 116 and theextension plate 112. The side rail fastener 14 contacts the fastenersupport 126 at the base 6 of the side rail fastener 14. The side railfastener 14 is positioned between the external flange 116 and theinternal flange 118.

FIG. 3A is a perspective view of a side rail fastener 14. The side railfastener 14 includes a base 6. The base 6 contacts with a plurality ofdual hooks 20, a plurality of opposing dual hooks 22, and a plurality ofspacers 40. The support structure 8 connects the plurality of dual hooks20, the plurality of opposing dual hooks 22, and the plurality ofspacers 40.

FIG. 3B is a close-up view of the side rail fastener 14 in box IIIA. Theside rail fastener 14 includes a plurality of dual hooks 20, a pluralityof opposing dual hooks 22, and a plurality of spacers 40. The pluralityof dual hooks 20, the plurality of opposing dual hooks 22, and theplurality of spacers 40 are connected by a support structure 8. Theplurality of dual hooks 20, the plurality of opposing dual hooks 22, andthe plurality of spacers 40 alternate with each other to form a pattern.Each of the dual hooks 20 and each of the opposing dual hooks 22 includea trench 28 extending below and located between a front hook 24 and arear hook 26. The front hook 24 includes the connection lip 30, a topedge 34, and a rounded edge 38. The rear hook 26 includes a top edge 34,a connection lip 30, an angled wall 32, and a rounded edge 38. Each ofthe spacers 40 includes an upper surface 44, a side edge 50, and acurved edge 42.

FIG. 4A is a side view of a side rail fastener 14. The side railfastener 14 includes a plurality of dual hooks 20, plurality of oppositedual hooks 22, and a plurality of spacers 40 that are on a base 6. Theplurality of dual hooks 20, plurality of opposite dual hooks 22, and aplurality of spacers 40 are shown in rows of fasteners 10 and each rowof fasteners 10 is separated by distance D1. Each row of fasteners 10 iscomposed of a plurality of spacers 40, a plurality of dual hooks 20, anda plurality of opposing dual hooks 22.

FIG. 4B is a close-up side view of a side rail fastener 14 in box IVA.The side rail fastener 14 includes a plurality of dual hooks 20, aplurality of opposing dual hooks 22, and a plurality of spacers 40. Eachof the dual hooks 20 and each of the opposing hooks 22 include a trench28, connection edge 36, a front hook 24 and a rear hook 26. The fronthook 24 includes the connection lip 30, a top edge 34, and a roundededge 38. The rear hook 26 includes a top edge 34, a connection lip 30,an angled wall 32, and a rounded edge 38. The plurality of dual hooks 20contact the base 6 at the connection edge 36. The plurality of spacers40 includes a curved edge 42, a upper surface 44, and a side edge 50.The upper surface 44 of the plurality of spacers 40 is elevated abovethe top edge 34 of the plurality of dual hooks 20 and plurality ofopposing dual hooks 22 by distance D2.

FIG. 4C is a side view of a fastener assembly 2 before engagement withthe strip of loop fasteners 102. The fastener assembly 2 includes acover assembly 12 and a side rail assembly 14. The cover assembly 12includes the flexible cover 106 and a strip of loop fasteners 102. Theside rail assembly 14 includes dual hooks 20, opposing dual hooks 22,and spacers 40. The upper surface 44 of the spacers 40 preventpre-engagement of the top surfaces 34 of the dual hooks 20 and opposingdual hooks 22 by a distance D2. The elevated upper surface 44 of thespacers substantially prevents pre-engagement of the strip of loopfasteners 102 and the connection lip of the dual hooks 20 and opposingdual hooks 22 so that a force is required to engage the fastenerassembly.

FIG. 5 is a top view of a row of fasteners 10. The row of fasteners 10includes support structures 8, a plurality of dual hooks 20, a pluralityof opposing dual hooks 22, and a plurality of spacers 40. The supportstructures 8 runs the length of the row of fasteners 10 and connect withthe plurality of dual hooks 20, the plurality of opposing dual hooks 22,and the plurality of spacers 40. The plurality of dual hooks 20, theplurality of opposing dual hooks 22, and the plurality of spacers 40 areparallel relative to each other. The plurality of dual hooks 20, theplurality of opposing dual hooks 22, and the plurality of spacers 40 areseparated by distance D3. The support structure 8 is substantiallyperpendicular to the plurality of dual hooks 20, the plurality ofopposing dual hooks 22, and the plurality of spacers 40.

FIG. 6 is an exploded view of a row of fasteners 10. The row offasteners 10 includes support structures 8, base (not shown), a spacer40, a dual hook 20 and an opposing dual hook 22. The dual hook 20 andthe opposing dual hook 22 both include lip connections 30, a trench 28,top edges 34, a rear hook 26, a front hook 24, a rounded edge 38, aconnection edge 36, and an angled wall 32. The spacer 40 includes aupper surface 44, a curved edge 42, bottom edge 52, and a side edge 50.

FIG. 7 is an end view of a side rail assembly 14. The side rail assembly14 includes a plurality of spacers 40, a plurality of dual hooks 20, anda plurality of opposing dual hooks 22 that are connected at the supportstructure 8. The side rail assembly 14 includes a base 6. Each of theplurality of dual hooks 20 and the plurality of opposing dual hooks 22include a top edge 34 and connection edge 36. The base 6 and theplurality of dual hooks 20 and the plurality of opposing dual hooks 22contact at the connection edge 36. Each of the plurality of spacers 40includes an upper surface 44 and bottom edge 52. The plurality ofspacers 40 and the base 6 contact at the bottom edge 52. The uppersurface 44 of the plurality of spacers 40 is elevated above the top edge34 of the plurality of dual hook 20 and the plurality of opposing dualhooks 22 by distance D2.

Any numerical values recited herein include all values from the lowervalue to the upper value in increments of one unit provided that thereis a separation of at least 2 units between any lower value and anyhigher value. As an example, if it is stated that the amount of acomponent or a value of a process variable such as, for example,temperature, pressure, time and the like is, for example, from 1 to 90,preferably from 20 to 80, more preferably from 30 to 70, it is intendedthat values such as 15 to 85, 22 to 68, 43 to 51, 30 to 32 etc. areexpressly enumerated in this specification. For values which are lessthan one, one unit is considered to be 0.0001, 0.001, 0.01 or 0.1 asappropriate. These are only examples of what is specifically intendedand all possible combinations of numerical values between the lowestvalue and the highest value enumerated are to be considered to beexpressly stated in this application in a similar manner.

Unless otherwise stated, all ranges include both endpoints and allnumbers between the endpoints. The use of “about” or “approximately” inconnection with a range applies to both ends of the range. Thus, “about20 to 30” is intended to cover “about 20 to about 30”, inclusive of atleast the specified endpoints.

The disclosures of all articles and references, including patentapplications and publications, are incorporated by reference for allpurposes. The term “consisting essentially of” to describe a combinationshall include the elements, ingredients, components or steps identified,and such other elements ingredients, components or steps that do notmaterially affect the basic and novel characteristics of thecombination. The use of the terms “comprising” or “including” todescribe combinations of elements, ingredients, components or stepsherein also contemplates embodiments that consist essentially of orconsist of the elements, ingredients, components or steps.

Plural elements, ingredients, components or steps can be provided by asingle integrated element, ingredient, component or step. Alternatively,a single integrated element, ingredient, component or step might bedivided into separate plural elements, ingredients, components or steps.The disclosure of “a” or “one” to describe an element, ingredient,component or step is not intended to foreclose additional elements,ingredients, components or steps.

It is understood that the above description is intended to beillustrative and not restrictive. Many embodiments as well as manyapplications besides the examples provided will be apparent to those ofskill in the art upon reading the above description. The scope of theteaching should, therefore, be determined not with reference to theabove description, but should instead be determined with reference tothe appended claims, along with the full scope of equivalents to whichsuch claims are entitled. The disclosures of all articles andreferences, including patent applications and publications, areincorporated by reference for all purposes. The omission in thefollowing claims of any aspect of subject matter that is disclosedherein is not a disclaimer of such subject matter, nor should it beregarded that the inventors did not consider such subject matter to bepart of the disclosed inventive subject matter.

2 Fastener Assembly

6 Base

8 Support Structure

10 Row of Fasteners

12 Cover Fasteners

14 Side Rail Fasteners

20 Dual Hook

22 Opposing Dual Hook

24 Front Hook

26 Rear Hook

28 Trench

30 Connection Lip

32 Angled Wall

34 Top Edge

36 Connection Edge

38 Rounded Edge

40 Spacer

42 Curved Edge

44 Upper Surface

50 Side Edge

52 Bottom Edge

100 Vehicle Cover Assembly

101 Vehicle Cab

102 Strip of Loop Fasteners

103 Vehicle Floor

104 Vehicle Bed

105 Vertical Wall

106 Flexible Cover

107 Cab Wall

108 Side Rail

109 Tailgate

110 Clamp Plate

112 Extension Plate

114 Connecting Portion

116 External Flange

118 Internal Flange

120 Hook

122 Ridge

124 Longitudinal Portion

126 Fastener Support

128 Ribs

1) A vehicle cover assembly comprising; a) a flexible cover; b) one ormore side rails; and c) a fastener assembly that is secured to a vehiclebed comprising; i) a cover fastener that is on one or more edge regionsof the flexible cover; and ii) a side rail fastener with one or morerows of fasteners comprising; (1) a plurality of dual hooks on the basethat releasably connect with the cover fastener of the flexible cover;and (2) a plurality of spacers between the plurality of dual hooks. 2)The vehicle cover assembly of claim 1, wherein the plurality of dualhooks includes a top edge, and the plurality of spacers includes a uppersurface. 3) The vehicle cover assembly of claim 2, wherein the uppersurface of the plurality of spacers is elevated above the top edge ofthe plurality of dual hooks by a distance so that a force is required toengage the fastener assembly. 4) The vehicle cover assembly of claim 1,wherein the fastener assembly includes a ratio of the plurality ofspacers to the plurality of dual hooks of about 1:2 or more. 5) Thevehicle cover assembly of claim 1, wherein the cover fastener includes abase and one or more strips of loop fasteners. 6) The vehicle coverassembly of claim 1, wherein the fastener assembly includes four or moredual hooks for every spacer. 7) The vehicle cover assembly of claim 1,wherein the fastener assembly further comprises a support structure thatconnects and supports the plurality of dual hooks and the plurality ofspacers. 8) The vehicle cover assembly of claim 7, wherein the supportstructure is below the top edge of the plurality of dual hooks. 9) Thevehicle cover assembly of claim 1, wherein each of the plurality of dualhooks includes a front hook and a rear hook. 10) The vehicle coverassembly of claim 1, wherein the plurality of spacers and the pluralityof dual hooks are parallel. 11) The vehicle cover assembly of claim 1,wherein the fastener assembly further comprises a plurality of opposingdual hooks. 12) The vehicle cover assembly of claim 11, wherein theplurality of opposing dual hooks, the plurality of spacers and theplurality of dual hooks alternate. 13) The vehicle cover assembly ofclaim 11, wherein the ratio of plurality of dual hook to plurality ofopposing dual hooks is 1:1 or more. 14) The vehicle cover assembly ofclaim 11, wherein the plurality of opposing dual hooks includes a fronthook and a rear hook. 15) The vehicle cover assembly of claim 7, whereinthe plurality of spacers, the plurality of dual hooks, and the supportstructure are molded together. 16)A vehicle cover assembly comprising;a) a flexible cover; b) one or more side rails; and c) a fastenerassembly that is secured to a vehicle bed comprising; i) a coverfastener that is on one or more edge regions of the flexible cover; andii) a side rail fastener with one or more rows of fasteners comprising;(1) a plurality of dual hooks each including a top edge, the pluralityof dual hooks being located on a base that releasably connect with thecover fastener of the flexible cover; and (2) a plurality of spacershaving an upper surface, the plurality of spacers being located betweenthe plurality of dual hooks along a length of the fastener assembly;wherein the upper surface of the plurality of spacers is elevated abovethe top edge of the plurality of dual hooks so that when the flexiblecover extends over the fastener assembly, the flexible cover contactsthe upper surface of the plurality of spacers and substantially preventspre-engagement of the plurality of dual hooks and the cover fastener.17) The vehicle cover assembly of claim 16, wherein the upper surface ofthe plurality of spacers is sufficiently tall so that contact betweenthe plurality of dual hooks and the flexible cover is substantiallyprevented until a force is applied to the cover. 18) The vehicle coverassembly of claim 16, wherein the elevated plurality of spacers preventpre-engagement of the plurality of dual hooks and the cover fastener ofthe flexible cover. 19) The vehicle cover assembly of claim 16, whereinthe plurality of dual hooks includes a front hook and a rear hook, andwhere the front hook and the rear hook each include a connection lipthat engages one or more loops of the strip of loop fasteners. 20) Thevehicle cover assembly of claim 16, wherein the plurality of spacersincludes side edges that are lateral bounds of the spacers, and whereinthe connection lip of the front hook and the rear hook laterally extendsoutside of the side edges of the plurality of spacers.